Title :
Slotted ALOHA land-mobile radio networks with site diversity
Author :
Linnartz, J.-P.M.G.
Author_Institution :
Dept. of Electr. Eng., Delft Univ. of Technol., Netherlands
Abstract :
An analytical method for investigating slotted ALOHA land-mobile networks is presented. The probability of successful reception and throughput is assessed for a single base station, taking account of contending transmissions and receiver noise. Receiver capture is assumed to occur if the received signal power exceeds the joint interference power by a certain margin, called the receiver threshold. Rayleigh fading and UHF groundwave propagation are considered. Results are extended for a cellular network considering the interference from packet transmissions in other (co-channel) cells. It is seen that in packet-switched cellular nets, frequency reuse distances may be substantially smaller than in circuit-switched (CW) telephony networks, where each cell has to be safeguarded continuously from co-channel interference. Moreover, a technique to assess the throughput of ALOHA networks with multiple, geographically-separated base stations is presented and numerical results are given for uniform Poisson-distributed packet transmissions in the service area.<>
Keywords :
cellular radio; diversity reception; fading; multi-access systems; packet switching; protocols; radio networks; radiofrequency interference; radiowave propagation; Poisson-distributed packet transmissions; Rayleigh fading; UHF groundwave propagation; base station; cellular network; co-channel interference; contending transmissions; frequency reuse distances; joint interference power; land-mobile radio networks; multiple access protocol; packet transmissions; packet-switched cellular nets; received signal power; receiver capture; receiver noise; receiver threshold; reception probability; service area; site diversity; slotted ALOHA; uniform distribution;
Journal_Title :
Communications, Speech and Vision, IEE Proceedings I
